Ji-Liang Tang

Publications (48)168.37 Total impact

• Article: High-resolution transcriptional analysis of the regulatory influence of cell-to-cell signalling reveals novel genes that contribute to Xanthomonas phytopathogenesis.

  Shi-Qi An, Melanie Febrer, Yvonne McCarthy, Dong-Jie Tang, Leah Clissold, Gemy Kaithakottil, David Swarbreck, Ji-Liang Tang, Jane Rogers, J Maxwell Dow, Robert P Ryan
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  ABSTRACT: The bacterium Xanthomonas campestris is an economically important pathogen of many crop species and a model for the study of bacterial phytopathogenesis. In X. campestris, a regulatory system mediated by the signal molecule DSF controls virulence to plants. The synthesis and recognition of the DSF signal depends upon different Rpf proteins. DSF signal generation requires RpfF whereas signal perception and transduction depends upon a system comprising the sensor RpfC and regulator RpfG. Here we have addressed the action and role of Rpf/DSF signalling in phytopathogenesis by high-resolution transcriptional analysis coupled to functional genomics. We detected transcripts for many genes that were unidentified by previous computational analysis of the genome sequence. Novel transcribed regions included intergenic transcripts predicted as coding or non-coding as well as those that were antisense to coding sequences. In total, mutation of rpfF, rpfG and rpfC led to alteration in transcript levels (more than fourfold) of approximately 480 genes. The regulatory influence of RpfF and RpfC demonstrated considerable overlap. Contrary to expectation, the regulatory influence of RpfC and RpfG had limited overlap, indicating complexities of the Rpf signalling system. Importantly, functional analysis revealed over 160 new virulence factors within the group of Rpf-regulated genes.
  Molecular Microbiology 04/2013; · 5.01 Impact Factor
• Source

  Available from: Shuai Zhao

  Article: Identification of non-TAL effectors in Xanthomonas oryzae pv. oryzae Chinese strain 13751 and analysis of their role in the bacterial virulence.

  Shuai Zhao, Wei-Lan Mo, Fan Wu, Wei Tang, Ji-Liang Tang, Boris Szurek, Valérie Verdier, Ralf Koebnik, Jia-Xun Feng
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  ABSTRACT: Xanthomonas oryzae pv. oryzae (Xoo) is the causal agent of rice bacterial leaf blight, one of the most important rice bacterial diseases in China and many other countries. The upstream portions of 41 candidate genes encoding non-transcription activator-like effectors of Xoo Chinese strain 13751 were fused with the coding sequence of AvrBs1(59-445) in a broad host-range vector. The constructed plasmids were respectively introduced into Xoo strain 13751 and avrBs1 deletion mutant of X. campestris pv. campestris strain 8004 by tri-parental conjugation. The resultant transconjugants were respectively tested for hypersensitive response (HR) elicitation on pepper ECW-10R. Nine strains were able to elicit HR on pepper, indicating that the nine genes (XOO0037, XOO0103, XOO0110, XOO0315, XOO1488, XOO2875, XOO3150, XOO3222 and XOO4134) encoded effectors. Among them, xopAE ( 13751 ) (XOO0110), expressed in Xoo strain 13751 growing in rice leaves, was a new experimentally confirmed effector gene. XopAE(13751) contains 11 leucine rich repeats. Furthermore, mutants for the nine effector genes were created in Xoo strain 13751 and subsequently tested for virulence in rice. As a result, only the xopR ( 13751 ) (XOO4134) deletion mutant GXMxopR showed a significant reduction in virulence in hybrid rice cv. Teyou63 compared to the wild type. However, the growth of GXMxopR in host plant rice was not affected. These results indicated that xopR ( 13751 ) was required for full virulence of Xoo strain 13751 by inducing rice disease tolerance.
  MIRCEN Journal of Applied Microbiology and Biotechnology 04/2013; 29(4):733-744. · 1.08 Impact Factor
• Article: Transcriptome profiling of Xanthomonas campestris pv. campestris grown in minimal medium MMX and rich medium NYG.

  Wei Liu, Yan-Hua Yu, Shi-Yuan Cao, Xiang-Na Niu, Wei Jiang, Guo-Fang Liu, Bo-Le Jiang, Dong-Jie Tang, Guang-Tao Lu, Yong-Qiang He, Ji-Liang Tang
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  ABSTRACT: Xanthomonas campestris pathovar campestris (Xcc) is the causal agent of black rot disease in cruciferous plants worldwide. Although the complete genomes of several Xcc strains have been determined, the gene expression and regulation mechanisms in this pathogen are far from clear. In this work, transcriptome profiling of Xcc 8004 grown in MMX medium (minimal medium for Xanthomonas campestris) and NYG medium (peptone yeast glycerol medium) were investigated by RNA-Seq. Using the Illumina HiSeq 2000 platform, a total of 26,514,630 reads (90 nt in average) were generated, of which 15,708,478 reads mapped uniquely to coding regions of Xcc 8004 genome. Of the 4,273 annotated protein-coding genes of Xcc 8004, 629 were found differentially expressed in Xcc grown in MMX and NYG. Of the differentially expressed genes, 495 were up-regulated and 134 were down-regulated in MMX. The MMX-induced genes are mainly involved in amino acid metabolism, transport systems, atypical condition adaptation and pathogenicity, especially the type III secretion system, while the MMX-repressed genes are mainly involved in chemotaxis and degradation of small molecules. The global transcriptome analyses of Xcc 8004 grown in MMX and NYG might facilitate the gene functional characterization of this phytopathogenic bacterium.
  Research in Microbiology 03/2013; · 2.76 Impact Factor
• Source

  Available from: Shuai Zhao

  Article: Molecular and pathogenic characterization of new Xanthomonas oryzae pv. oryzae strains from the coastline region of Fangchenggang city in China.

  Shu-Qing Yang, Shu-Yan Liu, Shuai Zhao, Yan-Hua Yu, Rong-Bai Li, Cheng-Jie Duan, Ji-Liang Tang, Jia-Xun Feng
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  ABSTRACT: Virulence assays and DNA polymorphism analyses were used to characterize 33 Xanthomonas oryzae pv. oryzae (Xoo) strains collected from the coastline region of Fangchenggang city in China. Two new pathogenic races (FXP1 and FXP2), were determined by leaf-clipping inoculation of 12 near-isogenic International Rice-Bacterial Blight (IRBB) rice lines, each containing a single resistance gene. Race FXP1 consisted of twenty-eight strains that were incompatible on IRBB5 and IRBB7, while race FXP2 included five strains that were incompatible on IRBB5 and IRBB7 and moderately virulent on IRBB8 containing the xa8 gene. Restriction fragment length polymorphism (RFLP) analysis revealed that each probe of avrXa10 and IS1112 resolved two haplotypes. In a dendrogram generated from the combined RFLP data, the 33 Xoo strains were resolved into two clusters. There was a weak correlation (r = 0.53) between race and haplotype. All of the rice cultivars planted in the coastline region of Fangchenggang city were susceptible to the representative Xoo strains tested above. However, we found that four rice cultivars used as breeding materials in the laboratory could fully resist infection by the Xoo strains, suggesting that the isolated Xoo strains could be used to detect resistant rice cultivars suitable for planting in the local rice field.
  MIRCEN Journal of Applied Microbiology and Biotechnology 12/2012; · 1.08 Impact Factor
• Source

  Available from: Chengcai Chu

  Article: Involvement of OsNPR1/NH1 in rice basal resistance to blast fungus Magnaporthe oryzae

  Jia-Xun Feng, Lin Cao, Juan Li, Cheng-Jie Duan, Xue-Mei Luo, Ning Le, Haihong Wei, Shujia Liang, Chengcai Chu, Qinghua Pan, Ji-Liang Tang
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  ABSTRACT: Rice blast disease, caused by the fungus Magnaporthe oryzae, is a major threat to worldwide rice production. Plant basal resistance is activated by virulent pathogens in susceptible host plants. OsNPR1/NH1, a rice homolog of NPR1 that is the key regulator of systemic acquired resistance in Arabidopsis thaliana, was shown to be involved in the resistance of rice to bacterial blight disease caused by Xanthomonas oryzae pv. oryzae and benzothiadiazole (BTH)-induced blast resistance. However, the role of OsNPR1/NH1 in rice basal resistance to blast fungus M. oryzae remains uncertain. In this study, the OsNPR1 gene was isolated and identified from rice cultivar Gui99. Transgenic Gui99 rice plants harbouring OsNPR1-RNAi were generated, and the OsNPR1-RNAi plants were significantly more susceptible to M. oryzae infection. Northern hybridization analysis showed that the expression of pathogenesis-related (PR) genes, such as PR-1a, PBZ1, CHI, GLU, and PAL, was significantly suppressed in the OsNPR1-RNAi plants. Consistently, overexpression of OsNPR1 in rice cultivars Gui99 and TP309 conferred significantly enhanced resistance to M. oryzae and increased expression of the above-mentioned PR genes. These results revealed that OsNPR1 is involved in rice basal resistance to the blast pathogen M. oryzae, thus providing new insights into the role of OsNPR1 in rice disease resistance. KeywordsRice– OsNPR1/NH1 –Basal resistance–Rice blast– Magnaporthe oryzae –PR genes
  European Journal of Plant Pathology 04/2012; 131(2):221-235. · 1.41 Impact Factor
• Article: Isolation of a gene encoding endoglucanase activity from uncultured microorganisms in buffalo rumen

  Li Liu, Yi Feng, Cheng-Jie Duan, Hao Pang, Ji-Liang Tang, Jia-Xun Feng
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  ABSTRACT: A gene, umcel5N, was isolated from a metagenomic library constructed from the contents of buffalo rumen. Its putative product belongs to the glycosyl hydrolase family 5 and is most closely related to an endoglucanase (ABN54006.1) from Clostridium thermocellum with 44% identity and 60% similarity. Gene umcel5N was heterologously expressed in Escherichia coli. The purified recombinant Umcel5N hydrolyzed carboxymethyl cellulose with a rapid decrease in the viscosity of the solution but with little release of reducing sugars, suggesting an endo mode of action. The enzyme exhibited optimal activity toward p-nitrophenyl β-d-cellobioside at pH 5.5 and 55°C, and had a Km of 1.56mM and a Vmax of 285.6U/mg. Two glutamic acids (E144 and E285) of the wild-type Umcel5N were predicted as a proton donor and a nucleophile, respectively. Site-directed mutagenesis confirmed that they were required for the enzyme’s activity.
  World Journal of Microbiology and Biotechnology 04/2012; 25(6):1035-1042. · 1.53 Impact Factor
• Article: RsmA Regulates Biofilm Formation in Xanthomonas campestris through a Regulatory Network Involving Cyclic di-GMP and the Clp Transcription Factor.

  Xiu-Hong Lu, Shi-Qi An, Dong-Jie Tang, Yvonne McCarthy, Ji-Liang Tang, John Maxwell Dow, Robert P Ryan
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  ABSTRACT: Biofilm formation and dispersal in the black rot pathogen Xanthomonas campestris pathovar campestris (Xcc) is influenced by a number of factors. The extracellular mannanase ManA has been implicated in biofilm dispersal whereas biofilm formation requires a putative glycosyl transferase encoded by the xag gene cluster. Previously we demonstrated that the post-transcriptional regulator RsmA exerts a negative regulatory influence on biofilm formation in Xcc. Here we address the mechanisms by which RsmA exerts this action. We show that RsmA binds to the transcripts of three genes encoding GGDEF domain diguanylate cyclases to influence their expression. Accordingly, mutation of rsmA leads to an increase in cellular levels of cyclic di-GMP. This effect is associated with a down-regulation of transcription of manA, but an upregulation of xag gene transcription. Mutation of clp, which encodes a cyclic di-GMP-responsive transcriptional regulator of the CRP-FNR family, has similar divergent effects on the expression of manA and xag. Nevertheless Clp binding to manA and xag promoters is inhibited by cyclic di-GMP. The data support the contention that, in common with other CRP-FNR family members, Clp can act as both an activator and repressor of transcription of different genes to influence biofilm formation as a response to cyclic di-GMP.
  PLoS ONE 01/2012; 7(12):e52646. · 4.09 Impact Factor
• Article: sRNA-Xcc1, an integron-encoded transposon- and plasmid-transferred trans-acting sRNA, is under the positive control of the key virulence regulators HrpG and HrpX of Xanthomonas campestris pathovar campestris.

  Xiao-Lin Chen, Dong-Jie Tang, Rui-Ping Jiang, Yong-Qiang He, Bo-Le Jiang, Guang-Tao Lu, Ji-Liang Tang
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  ABSTRACT: sRNA-Xcc1 is a trans-acting sRNA recently identified from the plant pathogenic bacterium Xanthomonas campestris pathovar campestris (Xcc). Here, the phylogenetic distribution, predicted secondary structure and regulation of expression of sRNA-Xcc1 were analyzed. The analysis showed (1) a total 81 sRNA-Xcc1 homologs that are found in some bacterial strains that are taxonomically unrelated, belonging to the α-, β-, γ- and δ-proteobacteria (2) that some sRNA-Xcc1 homologs are located in a plasmid-borne transposon or near a transposase coding gene, (3) that sRNA-Xcc1 is encoded by a integron gene cassette in Xcc and sRNA-Xcc1 homologs occur in integron gene cassettes of some uncultured bacteria and (4) that sRNA-Xcc1 homologs have a highly conserved sequence motif and a stable consensus secondary structure. These findings strongly support the idea that sRNA-Xcc1 represents a novel family of sRNAs which may be originally captured by integrons from natural environments and then spread among different bacterial species via horizontal gene transfer, possibly by means of transposons and plasmids. The expression analysis results demonstrated that the transcription of sRNA-Xcc1 is under the positive control of the key virulence regulators HrpG and HrpX, indicating that sRNA-Xcc1 may be involved in the virulence regulation of Xcc.
  RNA biology 11/2011; 8(6):947-53. · 5.56 Impact Factor
• Article: Effect of interactions between Mip and PrtA on the full extracellular protease activity of Xanthomonas campestris pathovar campestris.

  Qing-Lin Meng, Dong-Jie Tang, Ying-Yuan Fan, Zhen-Jiang Li, Hui Zhang, Yong-Qiang He, Bo-Le Jiang, Guang-Tao Lu, Ji-Liang Tang
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  ABSTRACT: Mip (macrophage infectivity potentiator) and Mip-like proteins have been demonstrated to be involved in virulence of several animal pathogens, but as yet none of their native bacterial targets has been identified. Our previous work demonstrated that the Mip-like protein found in the plant pathogen Xanthomonas campestris pv. campestris (Xcc) (hereafter called Mip(Xcc)) is also involved in virulence. Inactivation of the mip(Xcc) gene leads to a significant reduction in exopolysaccharide production and extracellular protease activity via an unknown mechanism. The Xcc genome encodes six extracellular proteases, all of which are secreted via the type II secretion system. The serine protease PrtA makes the largest contribution to Xcc's total extracellular proteolytic activity. In this study, Western blotting analysis demonstrated that Mip(Xcc) was located in the periplasm. Bacterial two-hybrid and far-Western analysis indicated that Mip(Xcc) interacted with PrtA directly. Purified Mip(Xcc) was found to be able to rescue the protease activity of periplasmic proteins extracted from the mip(Xcc) mutant. These findings show that Mip(Xcc) plays a role in the maturation of PrtA, which is the novel native target for at least one Mip or Mip-like protein.
  FEMS Microbiology Letters 10/2011; 323(2):180-7. · 2.04 Impact Factor
• Article: Systematic mutagenesis of all predicted gntR genes in Xanthomonas campestris pv. campestris reveals a GntR family transcriptional regulator controlling hypersensitive response and virulence.

  Shi-Qi An, Guang-Tao Lu, Hui-Zhao Su, Rui-Fang Li, Yong-Qiang He, Bo-Le Jiang, Dong-Jie Tang, Ji-Liang Tang
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  ABSTRACT: The GntR family is one of the most abundant and widely distributed groups of helix-turn-helix transcriptional regulators in bacteria. Six open reading frames in the genome of the plant pathogen Xanthomonas campestris pv. campestris were predicted to encode GntR regulators. All six of the predicted GntR-encoding genes were individually mutagenized and mutants from five of them were successfully obtained. Plant disease response assays revealed that one, whose product belongs to the YtrA subfamily and has been named HpaR1, is involved in the hypersensitive response (HR) and virulence. Electrophoretic mobility shift assays and in vitro transcription assays revealed that HpaR1 could repress its own transcription level through binding to its promoter sequence, indicating an autoregulatory feedback inhibition mechanism for HpaR1 expression. Promoter-gusA reporter and reverse-transcription polymerase chain reaction analyses revealed that HpaR1 positively and negatively affects the expression of HR and pathogenicity (hrp) genes in host plant and standard media, respectively. Constitutive expression of the key hrp regulator, hrpG, in the hpaR1 mutant could bypass the requirement of HpaR1 for the induction of wild-type HR, suggesting that HpaR1 regulates the expression of hrp genes that encode the type III secretion system via hrpG.
  Molecular Plant-Microbe Interactions 05/2011; 24(9):1027-39. · 4.43 Impact Factor
• Article: Xanthomonas campestris diffusible factor is 3-hydroxybenzoic acid and is associated with xanthomonadin biosynthesis, cell viability, antioxidant activity, and systemic invasion.

  Ya-Wen He, Ji'en Wu, Lian Zhou, Fan Yang, Yong-Qiang He, Bo-Le Jiang, Linquan Bai, Yuquan Xu, Zixin Deng, Ji-Liang Tang, Lian-Hui Zhang
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  ABSTRACT: Xanthomonas campestris pv. campestris produces a membrane-bound yellow pigment called xanthomonadin. A diffusible factor (DF) has been reported to regulate xanthomonadin biosynthesis. In this study, DF was purified from bacterial culture supernatants using a combination of solvent extraction, flash chromatography, and high-performance liquid chromatography. Mass spectrometry and nuclear magnetic resonance analyses resolved the DF chemical structure as 3-hydroxybenzoic acid (3-HBA), which was further confirmed by synthetic 3-HBA. Significantly, bioassay and in silico analysis suggest that DF production is widely conserved in a range of bacterial species. Analysis of DF derivatives established the hydroxyl group and its position as the key structural features for the role of DF in xanthomonadin biosynthesis. In addition, we showed that DF is also associated with bacterial survival, H2O2 resistance, and systemic invasion. Furthermore, evidence was also presented that DF and diffusible signaling factor have overlapping functions in modulation of bacterial survival, H2O2 resistance, and virulence. Utilization of different mechanisms to modulate similar virulence traits may provide X. campestris pv. campestris with plasticity in response to various environmental cues.
  Molecular Plant-Microbe Interactions 05/2011; 24(8):948-57. · 4.43 Impact Factor
• Article: The rsmA-like gene rsmA(Xoo) of Xanthomonas oryzae pv. oryzae regulates bacterial virulence and production of diffusible signal factor.

  Pei-Liang Zhu, Shuai Zhao, Ji-Liang Tang, Jia-Xun Feng
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  ABSTRACT: The plant-pathogenic prokaryote Xanthomonas oryzae pv. oryzae (Xoo) causes bacterial leaf blight, one of the most destructive diseases of rice. A nonpolar mutant of the rsmA-like gene rsmA(Xoo) of the Xoo Chinese strain 13751 was constructed by homologous integration with a suicide plasmid. Virulence tests on a host plant, namely the hybrid rice cultivar Teyou 63, showed that the mutant had lost its virulence almost completely, whereas tests on a nonhost, namely castor-oil plant (Ricinus communis), showed that the mutant had also lost the ability to induce a hypersensitive response in the nonhost. In addition, the rsmA(Xoo) mutant produced significantly smaller amounts of the diffusible signal factor, extracellular endoglucanase, amylase and extracellular polysaccharide, but showed significantly higher glycogen accumulation, bacterial aggregation and cell adhesion. The expression of most hrp genes, genes encoding AvrBs3/PthA family members, rpfB, xrvA, glgA, eglXoB and XOO0175 (encoding an α-amylase) was down-regulated in the rsmA(Xoo) mutant. All phenotypes and expression levels of the tested genes in the rsmA(Xoo) mutant were restored to their levels in the wild-type by the presence of rsmA(Xoo) in trans. These results indicate that rsmA(Xoo) is essential for the virulence of Xoo.
  Molecular Plant Pathology 04/2011; 12(3):227-37. · 3.90 Impact Factor
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  Available from: Yong-Qiang He

  Article: Gene discovery by genome-wide CDS re-prediction and microarray-based transcriptional analysis in phytopathogen Xanthomonas campestris.

  Lian Zhou, Frank-Jörg Vorhölter, Yong-Qiang He, Bo-Le Jiang, Ji-Liang Tang, Yuquan Xu, Alfred Pühler, Ya-Wen He
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  ABSTRACT: One of the major tasks of the post-genomic era is "reading" genomic sequences in order to extract all the biological information contained in them. Although a wide variety of techniques is used to solve the gene finding problem and a number of prokaryotic gene-finding software are available, gene recognition in bacteria is far from being always straightforward. This study reported a thorough search for new CDS in the two published Xcc genomes. In the first, putative CDSs encoded in the two genomes were re-predicted using three gene finders, resulting in the identification of 2850 putative new CDSs. In the second, similarity searching was conducted and 278 CDSs were found to have homologs in other bacterial species. In the third, oligonucleotide microarray and RT-PCR analysis identified 147 CDSs with detectable mRNA transcripts. Finally, in-frame deletion and subsequent phenotype analysis of confirmed that Xcc_CDS002 encoding a novel SIR2-like domain protein is involved in virulence and Xcc_CDS1553 encoding a ArsR family transcription factor is involved in arsenate resistance. Despite sophisticated approaches available for genome annotation, many cellular transcripts have remained unidentified so far in Xcc genomes. Through a combined strategy involving bioinformatic, postgenomic and genetic approaches, a reliable list of 306 new CDSs was identified and a more thorough understanding of some cellular processes was gained.
  BMC Genomics 01/2011; 12:359. · 4.07 Impact Factor
• Article: Production of raw cassava starch-degrading enzyme by Penicillium and its use in conversion of raw cassava flour to ethanol.

  Hai-Juan Lin, Liang Xian, Qiu-Jiang Zhang, Xue-Mei Luo, Qiang-Sheng Xu, Qi Yang, Cheng-Jie Duan, Jun-Liang Liu, Ji-Liang Tang, Jia-Xun Feng
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  ABSTRACT: A newly isolated strain Penicillium sp. GXU20 produced a raw starch-degrading enzyme which showed optimum activity towards raw cassava starch at pH 4.5 and 50 °C. Maximum raw cassava starch-degrading enzyme (RCSDE) activity of 20 U/ml was achieved when GXU20 was cultivated under optimized conditions using wheat bran (3.0% w/v) and soybean meal (2.5% w/v) as carbon and nitrogen sources at pH 5.0 and 28 °C. This represented about a sixfold increment as compared with the activity obtained under basal conditions. Starch hydrolysis degree of 95% of raw cassava flour (150 g/l) was achieved after 72 h of digestion by crude RCSDE (30 U/g flour). Ethanol yield reached 53.3 g/l with fermentation efficiency of 92% after 48 h of simultaneous saccharification and fermentation of raw cassava flour at 150 g/l using the RCSDE (30 U/g flour), carried out at pH 4.0 and 40 °C. This strain and its RCSDE have potential applications in processing of raw cassava starch to ethanol.
  Journal of Industrial Microbiology 12/2010; 38(6):733-42. · 1.80 Impact Factor
• Article: An ordered EST catalogue and gene expression profiles of cassava (Manihot esculenta) at key growth stages.

  You-Zhi Li, Ying-Hua Pan, Chang-Bin Sun, Hai-Tao Dong, Xing-Lu Luo, Zhi-Qiang Wang, Ji-Liang Tang, Baoshan Chen
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  ABSTRACT: A cDNA library was constructed from the root tissues of cassava variety Huanan 124 at the root bulking stage. A total of 9,600 cDNA clones from the library were sequenced with single-pass from the 5'-terminus to establish a catalogue of expressed sequence tags (ESTs). Assembly of the resulting EST sequences resulted in 2,878 putative unigenes. Blastn analysis showed that 62.6% of the unigenes matched with known cassava ESTs and the rest had no 'hits' against the cassava database in the integrative PlantGDB database. Blastx analysis showed that 1,715 (59.59%) of the unigenes matched with one or more GenBank protein entries and 1,163 (40.41%) had no 'hits'. A cDNA microarray with 2,878 unigenes was developed and used to analyze gene expression profiling of Huanan 124 at key growth stages including seedling, formation of root system, root bulking, and starch maturity. Array data analysis revealed that (1) the higher ratio of up-regulated ribosome-related genes was accompanied by a high ratio of up-regulated ubiquitin, proteasome-related and protease genes in cassava roots; (2) starch formation and degradation simultaneously occur at the early stages of root development but starch degradation is declined partially due to decrease in UDP-glucose dehydrogenase activity with root maturity; (3) starch may also be synthesized in situ in roots; (4) starch synthesis, translocation, and accumulation are also associated probably with signaling pathways that parallel Wnt, LAM, TCS and ErbB signaling pathways in animals; (5) constitutive expression of stress-responsive genes may be due to the adaptation of cassava to harsh environments during long-term evolution.
  Plant Molecular Biology 10/2010; 74(6):573-90. · 4.15 Impact Factor
• Article: Novel carbohydrate-binding module identified in a ruminal metagenomic endoglucanase.

  Cheng-Jie Duan, Jun-Liang Liu, Xi Wu, Ji-Liang Tang, Jia-Xun Feng
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  ABSTRACT: Endoglucanase C5614-1 comprises a catalytic module (CM) and an X module (XM). The XM showed no significant homology with known carbohydrate-binding modules (CBMs). Recombinant full-length endoglucanase could bind Avicel, whereas the CM could not. The XM could bind various polysaccharides. The results demonstrated that the XM was a new CBM.
  Applied and environmental microbiology 07/2010; 76(14):4867-70. · 3.69 Impact Factor
• Article: [Identification of a gene involved in the expression of the pathogenicity-related gene XC3814 in Xanthomonas campestris].

  Hui-Zhao Su, Zhi-Jiao Xiang, Fang-Yin Peng, Rui-Fang Li, Shi-Qi An, Guang-Tao Lu, Ji-Liang Tang
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  ABSTRACT: Xanthomonas campestris pv. campestris (Xcc) is the causal agent of the black rot disease of cruciferous plants. Our previous work had demonstrated that XC3814 is required for full virulence and extracellular polysaccharide production. In this work, the reporter plasmid pL3814sac was constructed by fusing the promoter region of XC3814 to the coding region of the gene sacB, and introduced into Xcc wild-type strain 8004. The resulted strain 8004/pL3814sac was mutagenized randomly by the transposon EZ::Tn5, and 3 mutant strains insensitive to sucrose were isolated. One of the mutants was due to the disruption of the open reading frame XC3882, which was assigned to code a hypothetical protein. To verify whether XC3882 has an impact on the expression level of XC3814, the reporter plasmid pGUS3814 was constructed by fusing the promoter region of XC3814 to the coding region of the gusA gene. This construct was introduced into the wild-type strain 8004 and the XC3882 mutant strain 190A10, which was derived from the transposon Tn5gusA5 insertion. The GUS activity, produced by pGUS3814 in the XC3882 mutant background, was reduced by 81.3% compared to that in the wild type background. These results indicate that the expression of XC3814 is influenced by XC3882.
  Hereditas (Beijing) 01/2010; 32(1):81-6.
• Source

  Available from: Yong-Qiang He

  Article: Identification of four novel small non-coding RNAs from Xanthomonas campestris pathovar campestris.

  Rui-Ping Jiang, Dong-Jie Tang, Xiao-Lin Chen, Yong-Qiang He, Jia-Xun Feng, Bo-Le Jiang, Guang-Tao Lu, Min Lin, Ji-Liang Tang
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  ABSTRACT: In bacteria, small non-coding RNAs (sRNAs) have been recognized as important regulators of various cellular processes. Approximately 200 bacterial sRNAs in total have been reported. However, very few sRNAs have been identified from phytopathogenic bacteria. Xanthomons campestris pathovar campestris (Xcc) is the causal agent of black rot disease of cruciferous crops. In this study, a cDNA library was constructed from the low-molecular weight RNA isolated from the Xcc strain 8004 grown to exponential phase in the minimal medium XVM2. Seven sRNA candidates were obtained by sequencing screen of 2,500 clones from the library and four of them were confirmed to be sRNAs by Northern hybridization, which were named sRNA-Xcc1, sRNA-Xcc2, sRNA-Xcc3, and sRNA-Xcc4. The transcription start and stop sites of these sRNAs were further determined. BLAST analysis revealed that the four sRNAs are novel. Bioinformatics prediction showed that a large number of genes with various known or unknown functions in Xcc 8004 are potential targets of sRNA-Xcc1, sRNA-Xcc3 and sRNA-Xcc4. In contrast, only a few genes were predicted to be potential targets of sRNA-Xcc2. We have identified four novel sRNAs from Xcc by a large-scale screen. Bioinformatics analysis suggests that they may perform various functions. This work provides the first step toward understanding the role of sRNAs in the molecular mechanisms of Xanthomonas campestris pathogenesis.
  BMC Genomics 01/2010; 11:316. · 4.07 Impact Factor
• Article: Identification of six type III effector genes with the PIP box in Xanthomonas campestris pv. campestris and five of them contribute individually to full pathogenicity.

  Wei Jiang, Bo-Le Jiang, Rong-Qi Xu, Jun-Ding Huang, Hong-Yu Wei, Guo-Feng Jiang, Wei-Jian Cen, Jiao Liu, Ying-Ying Ge, Guang-Hua Li, Li-Li Su, Xiao-Hong Hang, Dong-Jie Tang, Guang-Tao Lu, Jia-Xun Feng, Yong-Qiang He, Ji-Liang Tang
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  ABSTRACT: Xanthomonas campestris pv. campestris is the pathogen of black rot of cruciferous plants. The pathogenicity of the pathogen depends on the type III secretion system (T3SS) that translocates directly effector proteins into plant cells, where they play important roles in the molecular interaction between the pathogen and its hosts. The T3SS of Xanthomonas spp. is encoded by a cluster of hypersensitive response and pathogenicity (hrp) genes. It has been demonstrated that the expression of hrp genes and some type III secreted (T3S)-effector genes is coactivated by the key hrp regulatory protein HrpX. The regulation by HrpX can be mediated by the binding of HrpX protein to a cis-regulatory element named the plant-inducible promoter (PIP) box present in the promoter region of HrpX-regulated genes. A genome screen revealed that X. campestris pv. campestris 8004 possesses 56 predicted genes with the PIP box. Nine of these genes have been shown to encode T3S effectors, Hrp, and Hrp-associated proteins. In this study, we employed an established T3S effector translocation assay with the hypersensitive-reaction-inducing domain of X. campestris pv. campestris AvrBs1 as a reporter to characterize the remaining 47 genes with the PIP box and showed that 6 of them, designated as XopXccE1, XopXccP, XopXccQ, XopXccR1, XopXccLR, and AvrXccB, harbor a functional translocation signal in their N-terminal regions, indicating that they are T3S effectors of X. campestris pv. campestris. We provided evidence to demonstrate that all these effectors are expressed in an HrpX-dependent manner and their translocation into plant cells relies on the translocon protein HrpF and the chaperone HpaB. Mutational analyses demonstrated that all these effectors, except AvrXccB, are individually required for full virulence and growth of X. campestris pv. campestris in the host plant Chinese radish.
  Molecular Plant-Microbe Interactions 11/2009; 22(11):1401-11. · 4.43 Impact Factor
• Article: Properties of a metagenome-derived beta-glucosidase from the contents of rabbit cecum.

  Yi Feng, Cheng-Jie Duan, Li Liu, Ji-Liang Tang, Jia-Xun Feng
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  ABSTRACT: In this study, a previously cloned beta-glucosidase gene, umbgl3B, was heterologously expressed in Escherichia coli, and the biochemical properties of the purified enzyme were characterized. The recombinant enzyme was stable over a wide range of pH values (5.0-9.0) and below 30 degrees C. It displayed optimum enzymatic activity at pH 6.5 at 40 degrees C, under condition similar to that in the rabbit cecum, suggesting an active role of the native enzyme in vivo. The recombinant beta-glucosidase Umbgl3B showed high activity to aryl beta-D-glucosides and low activity to cellooligosaccharides, with a polymerization degree of less than 5. The enzyme had no activity toward long cellooligosaccharides or polysaccharides. The aspartic acid residue, D772, of the wild-type Umbgl3B was predicted as a nucleophile. Mutant D772A was constructed. It showed less than 1/10,000 activity of the wild-type enzyme, but had the same properties, suggesting that residue D772 plays a key role in the enzyme's activity.
  Bioscience Biotechnology and Biochemistry 08/2009; 73(7):1470-3. · 1.28 Impact Factor